T
Tara L. Schiller
Researcher at University of Warwick
Publications - 46
Citations - 2237
Tara L. Schiller is an academic researcher from University of Warwick. The author has contributed to research in topics: Polymerization & Nanoparticle. The author has an hindex of 20, co-authored 44 publications receiving 1950 citations. Previous affiliations of Tara L. Schiller include Monash University, Clayton campus & Commonwealth Scientific and Industrial Research Organisation.
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Exploring graphene as a corrosion protection barrier
TL;DR: The potential for graphene coatings to serve as a barrier to aqueous corrosion has not been widely studied as discussed by the authors, and the electrochemical response of graphene-coated nickel and copper was shown to substantially reduce the corrosion rate.
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SERS of semiconducting nanoparticles (TiO(2) hybrid composites).
Anthony W. Musumeci,David J. Gosztola,Tara L. Schiller,Nada M. Dimitrijevic,Vladimiro Mujica,Darren J. Martin,Tijana Rajh +6 more
TL;DR: The smallest concentration of adsorbed molecules shows the largest Raman enhancements suggesting the possibility for high sensitivity of this system in the detection of biomolecules that form a charge transfer complex with metal oxide nanoparticles.
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Differential plasma protein binding to metal oxide nanoparticles.
Zhou J. Deng,Gysell M. Mortimer,Tara L. Schiller,Anthony W. Musumeci,Darren J. Martin,Rodney F. Minchin +5 more
TL;DR: The binding of human plasma proteins to commercially available titanium dioxide, silicon dioxide and zinc oxide nanoparticles was investigated and it was found that, despite these particles having similar surface charges in buffer, they bound different plasma proteins.
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Structural reorganization of cylindrical nanoparticles triggered by polylactide stereocomplexation
Liang Sun,Anaïs Pitto-Barry,Nigel Kirby,Tara L. Schiller,Ana M. Sanchez,M. Adam Dyson,Jeremy Sloan,Neil R. Wilson,Rachel K. O'Reilly,Andrew P. Dove +9 more
TL;DR: This new mechanism for morphological reorganization, through competitive crystallization and stereocomplexation and without the requirement for an external stimulus, allows for new opportunities in controlled release and delivery applications.
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Tuning the Size of Cylindrical Micelles from Poly(l-lactide)-b-poly(acrylic acid) Diblock Copolymers Based on Crystallization-Driven Self-Assembly
Liang Sun,Nikos Petzetakis,Anaïs Pitto-Barry,Tara L. Schiller,Tara L. Schiller,Nigel Kirby,Daniel J. Keddie,Benjamin James Boyd,Rachel K. O'Reilly,Andrew P. Dove,Andrew P. Dove +10 more
TL;DR: In this paper, a series of poly(l-lactide)-b-poly(acrylic acid) (PLLA-b-PAA) diblock copolymers with a range of hydrophobic or hydrophilic block lengths were designed in order to tune the size of the resultant cylindrical micelles using a crystallization-driven self-assembly (CDSA) approach.